Thursday, 28 January 2021

Corsair Launches MP600 CORE and MP600 PRO PCIe 4.0 SSDs

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Corsair is launching a new round of PCIe 4.0 M.2 NVMe SSDs based on the latest reference designs from Phison plus Corsair's own heatsink designs. Starting off, the Corsair MP600 CORE is their first PCIe 4.0 SSD with QLC NAND flash memory. This uses the older Phison E16 controller so peak performance only pushes a little bit beyond what would be possible with PCIe 3.0, but it's still a step up from the Corsair MP400.

Corsair MP600 CORE Specifications
Capacity 1 TB 2 TB 4 TB
Form Factor M.2 2280 PCIe 3 x4
Controller Phison E16
NAND Flash 3D QLC
DRAM 1 GB 2 GB
Sequential Read (MB/s) 4700 4950
Sequential Write (MB/s) 1950 3700 3950
Random Read IOPS (4kB) 200k 380k 630k
Random Write IOPS (4kB) 480k 580k
Power Consumption Read 5.6 W 6.3 W 6.0 W
Write 5.7 W 6.8 W 7.4 W
Warranty 5 years
Write Endurance 200 TB
0.1 DWPD
400 TB
0.1 DWPD
800 TB
0.1 DWPD
MSRP $154.99
(15¢/GB)
$309.99
(15¢/GB)
$644.99
(16¢/GB)

We have a sample of the 2TB MP600 CORE in hand, waiting for its turn to run through our new SSD test suite.

Next is Corsair's new top of the line SSD, the MP600 PRO based on the Phison E18 controller and TLC NAND flash memory. The MP600 PRO takes over the top spot from the original MP600, Corsair's Phison E16 + TLC product that launched in 2019 alongside the first AMD Ryzen CPUs to support PCIe 4.0. The new MP600 PRO will be available with either the standard aluminum heatsink, or with a water block in a variant sold as the MP600 PRO Hydro X.

We don't have full specs for the MP600 PRO yet, but performance should be basically the same as other Phison E18 drives using 96L TLC, meaning peak sequential transfer rates around 7 GB/s for both reads and writes. The MP600 PRO will be available with capacities up to 2TB. Since Corsair isn't ready with review samples of the MP600 PRO quite yet, we expect retail availability will be a bit later than for the MP600 CORE.



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Tuesday, 26 January 2021

AMD Reports Q4 2020 Earnings: Analyst Q&A Transcript

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At the end of every financial call, invited financial analysts have an opportunity to probe the key members of the company on the numbers, as well as future products. We just had AMD’s Q4 2020 Financial call, covering all of Q4 developments as well as 2020 as a whole. On the call was CEO Dr. Lisa Su and CFO Davinder Kumar.



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AMD Reports Q4/FY 2020 Earnings: Record Revenues Repeat

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Needing no introduction, AMD this afternoon is the second of the PC chip titans to announce their earnings for the quarter and for the full 2020 calendar year. The company has continued to ride high on the success of its Zen architecture-based CPUs and APUs, as well as the recent launch of the Playstation 5 and Xbox Series X|S. As a result, these products have propelled AMD to another record quarter and another record year, as the company continues to hit revenue records while recording an increasingly tidy profit in the process.

For the fourth quarter of 2020, AMD reported $3.24B in revenue, a 53% jump over the same quarter a year ago. As a result, Q4’2020 was (once again) AMD’s best quarter ever, built on the back of strong sales across virtually the entire company. And AMD’s gross margin has held steady at 45%, the same as Q4’19.

Meanwhile, in what was already a strong quarter for the company, AMD also realized some one-off gains related to an income tax valuation allowance, which added another $1.3B to AMD’s net income. As a result, the company booked a massive profit of $1.78B for the quarter alone. Otherwise, excluding that one-off gain and looking at AMD’s non-GAAP results, the company still booked 66% more in net income in Q4’20 than they did the year-ago quarter. So not only is AMD pulling in record revenues for the quarter, but that is translating into much higher profits as well.

AMD Q4 2020 Financial Results (GAAP)
  Q4'2020 Q4'2019 Q3'2020 Y/Y Q/Q
Revenue $3.2B $2.1B $2.8B +53% +16%
Gross Margin 45% 45% 44% Flat +1pp
Operating Income $570M $348M $449M +64% +27%
Net Income $1781M* $170M $390M +948% +357%
Earnings Per Share $1.45 $0.15 $0.32 +867% +353%

As for AMD’s full-year earnings, the company has been having strong quarters all year now, so unsurprisingly this is reflected in their full-year results. Overall, for 2020 AMD booked $9.76B in revenue, which was an increase of 45% over 2019, and once again a record for the company. Amusingly, AMD’s gross margin for the entire year was also 45%, which is one percentage point higher than 2019’s.

Like AMD’s quarterly results, their full-year results are also distorted a bit by their one-off tax benefit. By GAAP standards AMD booked an incredible $2.49B in net income for 2020. However removing that tax benefit brings their net income down to around $1.4B – or a non-GAAP $1.56B – which is still a huge year-over-year increase in profitability for the company, more than doubling their 2019 non-GAAP performance. Despite AMD’s gross margin only improving by a single point, AMD is increasingly enjoying the benefits of scale, with record-breaking product shipments turning into profits for the company.

AMD FY 2020 Financial Results (GAAP)
  FY 2020 FY 2019 FY 2018 Y/Y
Revenue $9.8B $6.7B $6.5B +45%
Gross Margin 45% 43% 38% +2pp
Operating Income $1369M $631M $451M +117%
Net Income $2490M* $341M $337M +630%
Earnings Per Share $2.06 $0.30 $0.32 +587%

Moving on to individual reporting segments, 2020 marks an interesting year for AMD given the company’s unusual split into two major segments. Normally AMD’s Compute and Graphics segment is by far and away the flag bearer for the company’s earnings, but the launch of the latest generation of consoles, combined with ever-improving EPYC sales, means that the Enterprise, Embedded and Semi-Custom segment also saw a very strong quarter.

For Q4’20, AMD’s Computing and Graphics segment booked $1.96B in revenue, an 18% improvement over the year-ago quarter. According to the company, the biggest contributor to the increase here is strong sales of Ryzen processors. AMD does not break down the numbers by chip sales volumes, but Ryzen chip average selling prices (ASPs) themselves were actually down year-over-year, which AMD attributes to increased (and record) Ryzen mobile sales. The recent release of AMD’s Ryzen 5000 desktop CPUs did bring up ASPs on a quarterly basis, but Ryzen 5000 CPUs as a small piece of a larger whole, especially as they remain in short supply.

As for AMD’s GPU operations, the company reports that Radeon ASPs increased year-over-year and quarter-over-quarter, thanks to the recent launch of the Radeon RX 6000 series. Perhaps tellingly, the company is not offering any volume comparisons on a year-over-year basis, a likely indicator that AMD’s GPU sales are getting throttled by their supply constraints, especially as the company continues to ramp up the RX 6000 family.

AMD Q4 2020 Reporting Segments
  Q4'2020 Q4'2019 Q3'2020
Computing and Graphics
Revenue $1960M $1662M $1667M
Operating Income $420M $360M $384M
Enterprise, Embedded and Semi-Custom
Revenue $1284M $465M $1134M
Operating Income $243M $45M $141M

Meanwhile, AMD’s Enterprise, Embedded and Semi-Custom segment booked $1.28B in revenue for the quarter. The 176% year-over-year increase in revenue was driven by a mix of both improved EPYC sales, and of course the launch of the latest-generation gaming consoles. Unfortunately AMD doesn’t break down how much each of these product groups contributed, so it’s hard to say how much of this growth is the EPYC side of matters as opposed to the more irregular game console revenue. At any rate, according to AMD Q4 of 2020 was another record quarter on the server side of matters, with AMD recording record server revenue thanks to continued cloud and enterprise sales growth.

Looking forward, AMD is expecting a very promising first quarter of 2021 and beyond, albeit with expectations tempered by ongoing supply shortages. At this point the company has little trouble selling everything it can make, especially with the continued high demand for tech products spurred on by the pandemic. So a lot of what’s driving AMD’s future, especially over the next quarter or two, is based on just how many 7nm wafers the company can get out of TSMC. For that reason, AMD’s 2021 revenue forecast is relatively conservative for a growing AMD, as the company is projecting a 37% increase in non-GAAP revenue.

On the product side of matters, AMD will be enjoying a largely new and refreshed slate of product lines. The company’s Zen 3 architecture has begun shipping in laptops in the form of the new Cezanne APU, and the EPYC Milan family of server CPUs is set to launch later in the quarter. On top of that, they have ongoing sales of their Ryzen 5000 desktop CPUs, as well as the continued ramp-up and further releases of Radeon RX 6000 (RDNA2) GPUs, with new desktop and mobile parts expected in the first half of this year. Consequently, AMD is expecting a good year across all of its product lines, with all of its product lines expecting to see further growth.



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AMD's Ryzen 5000 Lucienne: Not Simply Rebranded Ryzen 4000 Renoir

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AMD came in for some harsh criticism when it announced that its new Ryzen 5000 Mobile U-series processors would not all be using its latest core design. At the product announcement, we were told that some of the U-series processors would be based on the previous Zen 2 generation, and this was mainly for partners to take advantage of the new naming scheme but also reuse designs with the same ballpark performance. A number of tech enthusiasts (including myself, I have to say) scoffed at this as it made the whole system complex. It’s still complex, but we’ve come to understand that these latest Zen 2 based mobile processors also include a whole raft of updates that make them a better version of what they are.

To simplify things I’m going to call these products by their AMD codenames. The older Zen 2 processors are called Renoir, and the newer Zen 2 processors are called Lucienne. Here is a list of the new Ryzen 5000 U-Series, with Lucienne listed in yellow.

Renoir, for all intents and purposes, was a very successful product for AMD. Placed in the Ryzen 4000 Mobile series, it became the bedrock of AMD’s mobile portfolio and has been installed in around 100 design wins since it came to market. Lucienne on the other hand is a minor player in the latest Ryzen 5000 Mobile series. It doesn’t have the updates that the new Zen 3 cores have, but we have since learned that on the power side of things, rather than being a copy of Renoir, it is almost certainly Renoir Plus.

What Lucienne brings to the table over Renoir comes in discrete categories.

Memory Controller

The memory controller in Lucienne is now able to decouple its voltage from the cores and enter a lower power state when not in use or for low bandwidth reasons. This ultimately saves power, and AMD has enabled it to bypass particular voltage indicators to help it stay in the low voltage state. Aside from the cores and the graphics, the other two consumers of power inside a mobile processor is the internal communications and the external communications, of which the memory controller falls under the latter. AMD has also put into place a system by which the memory controller can wake to a full bandwidth state faster than before, enabling better responsivity from those deep sleep states.

On top of this, the memory controller can now support double the capacity of memory from Renoir: up to 64 GB of DDR4-3200, or up to 32 GB of LPDDR4X-4267. Using DDR4 means the system can have more peak memory, as well as being user adjustable, however LPDDR4X trades those in for faster bandwidth overall (68.4 GB/s vs 51.2 GB/s).

 

Per-Core Voltage Control

In similar circumstances to the memory controller, having voltage control of each individual core in a mobile processor is one angle to both maximize performance when needed and minimize power loss when idle. In Renoir, all of the cores can adjust their frequency, but they all had to run at the same voltage. Lucienne changes that such that each core can adjust its voltage independently, enabling a finer grained power management and a more optimal power-efficient system. There are also additional hooks that operating systems can use if it knows high performance cores are needed in advance.

 

Preferred Core

When we speak about turbo, historically it has been assumed that any core can reach the highest single core turbo frequency, and that the workload is sometimes shifted between cores to help with thermal management. When a system uses a preferred core however, it means that a system could be optimized for that specific core, and more performance extracted. AMD introduced its Preferred Core technology on the desktop two generations ago, and now it comes to the mobile processors. One core out of the eight on Lucienne silicon will be designated the best core, and through an OS driver (default in Windows) all workloads will be placed on that core preferentially.

Frequency Ramp

One of the features that tie all of this together is how quickly a core can move from idle to peak performance and back again. If a system takes too long to ramp up to speed, or ramp back down, then responsiveness and power is lost. A typical modern system is expected to ramp up from idle to peak frequency within two frames at 60 Hz, or 32 milliseconds, however the latest systems from AMD and Intel have done it much faster, often within 16 ms. AMD’s enhanced clock gating technology is now enabling Lucienne to reduce that down to 1-2 milliseconds. This means that a system could easily ramp up and down between each keystroke on a keyboard, supplying immediate responsiveness to a user while keeping the total power use down. In the 16-32 millisecond regime, typing on a keyboard may have meant a core being active almost continuously, however making this change faster affords a lot of power savings through these transitions.

Continuous Performance Levels

The legacy way for an operating system to command performance is through performance states, or P-states. In this instance the OS would request a specific level of power and performance from the processor based on its detected workload, and the processor would respond. This was originally implemented during a time when turbo was first coming to modern processors, and workload analysis was better done through the operating system. Now we can do this level of monitoring on the processor directly, and through an OS driver (already part of Windows), with system support that level of frequency control can be passed back down to the processor. The processor also gets an effective continuous distribution of performance, rather than discrete P-states.

While Renoir had P-states, Lucienne gets the benefit of CPU-level performance requests.

 

Faster Integrated Graphics

With the additional power control elsewhere on the core, how the power delivery works to the integrated graphics was also adjusted to allow for better regulation and ultimately a lower minimum voltage. Through firmware AMD has enabled a frequency sensitive prediction model that allows the GPU to adjust its voltage and frequency based on its dynamic energy management. Coupled with the better regulation and the power budget balancing done between CPU, interconnect, DRAM, and the GPU, more power budget is available for the GPU. For Lucienne, this means +150 MHz on the peak IGP speeds compared to Renoir.


Slide shows Cezanne numbers, but applies to Lucienne as well

 

But I thought Lucienne Silicon was the same as Renoir Silicon?

This is the big question. We asked AMD if Lucienne was the same stepping of Renoir, and the answer was not exactly committal in one direction or the other. The simple answer is yes, however AMD wants to make clear that substantial changes were made to firmware and manufacturing that means that despite the transistor layout being identical, there are features of Lucienne that would never have worked in Renoir without the changes that have been made.

So while yes it is the same silicon layout and floorplan, some of these features weren’t possible in Renoir. AMD built in these features perhaps knowing that they couldn’t be enabled in Renoir, but sufficient changes and improvements at the manufacturing stage and firmware stage were made such that these features were enabled in Lucienne. More often than not these ideas often have very strict time windows to implement, and even if they are designed in the hardware, there is a strict cut-off point by which time if it doesn’t work as intended, it doesn’t get enabled. Obviously the best result is to have everything work on time, but building CPUs is harder than we realize.

Sometimes I wonder how we ever get these rocks powered by lightning to work in the first place.

 



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AMD Ryzen 9 5980HS Cezanne Review: Ryzen 5000 Mobile Tested

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Since AMD’s introduction of its newest Zen 3 core for desktop users, the implementation for notebooks and mobile users has been eagerly awaited. In a single generation, on the same manufacturing process, AMD extracted +19% more performance per clock (we verified), so for any system that is power limited, extra performance is often very well received. AMD announced its new Ryzen 5000 Mobile processor family at the start of the year, with processors from 15W to 45W+ in the pipeline, and the first mobile systems coming to market in February. AMD sent us a peak example of Ryzen 5000 Mobile for today’s review, the 35W Ryzen 9 5980HS, as contained in the ASUS ROG Flow X13.



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Friday, 22 January 2021

ASUS Pro WS WRX80E-SAGE SE WIFI Announced: A Motherboard for AMD Threadripper Pro

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In the world of crazy motherboard names, I think ASUS might have won with this one. The new ASUS Pro WS WRX80E-SAGE SE WIFI is a motherboard built for AMD’s upcoming Threadripper Pro processors featuring enough added clout to make the most of 128 lanes of PCIe 4.0.

The extended-ATX (E-ATX) motherboard uses a transposed LGA4094 socket, capable of supporting the 64-core Threadripper Pro 3995WX at 280 W. The socket uses a 16 power stage VRM design with a massive finned heatsink designed to full air from the front of the motherboard to the back in line with the socket and the memory slots, ending in the rear panel which has its own air baffle. There are eight memory slots, enabling 512 GB or 1 TB of DDR4-3200.

The power delivery heatsink seems to be connected to the active chipset heatsink, which in turn has additional heatsinks for all three of the board’s PCIe 4.0 x4 M.2 slots. Other storage options include two U.2 ports, eight SATA ports, and a bundled Hyper M.2 card capable of supporting another four M.2 PCIe 4.0 x4 storage drives.

The board has seven full length supported PCIe 4.0 x16 slots for add-in cards, with these systems aimed at renderers and computational work that can add in additional compute cards. Additional controllers include an Intel X550-AT2 for dual 10 gigabit Ethernet, a baseband management controller (ASUS doesn’t say which one), and Wi-Fi 6 connectivity, likely enabled through Intel’s AX201 or AX210.

Port wise there are nine USB 3.2 Gen 2 ports each with 10 Gbps, and a single USB 3.2 Gen 2x2 Type-C port capable of 20 Gbps. For the front panel, there are two USB 3.2 Gen 2 connectors, as well as USB 3.2 Gen 1 and USB 2.0. Also on the board is BIOS flashback, CMOS reset, what looks like a Realtek ALC1220 audio codec, a COM header, and a wide array of 5-pin fan headers. ASUS’ custom TPU chipset is also onboard.

Users should also be aware that this board appears to take three 12V CPU power connectors, whereas most power supplies only take two. There are also two additional 6-pin PCIe connectors to provide power to the PCIe slots. The rear of the board contains a backplate to assist with board rigidity.

The ASUS Pro WS WRX80E-SAGE SE Wi-Fi is expected to be available in North America from March. Price is as-yet unknown.

Related Reading:



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Intel Core i9-11900K leak suggests a seriously fast CPU

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Intel’s Core i9-11900K, the purportedly incoming 8-core flagship of its next-gen Rocket Lake processors, has been spotted in another leaked benchmark.

This one is a Geekbench result posted on Twitter (as spotted by VideoCardz), and it shows the 11900K with a boost speed of 5.3GHz – which matches what we witnessed in another leak a couple of weeks ago.

As ever with leaked benchmarks, treat this with a healthy amount of skepticism, but the Core i9-11900K (in a Gigabyte Z490 Aorus Master motherboard) recorded a single-core result of 1,892 and a multi-core tally of 10,934.

Those are some seriously impressive figures, particularly the single-core where the 11900K beats out the 10900K Comet Lake flagship by around 35%, no less, going by the benchmarks flagged up for comparison by VideoCardz. And both these Intel chips are level-pegging in multi-core, which again is impressive seeing as the 10900K is a 10-core product, and has a pair more cores to work with.

Furthermore, looking at the 11900K results here in comparison to AMD’s Ryzen 5800X (also an 8-core CPU), Intel’s chip was 13% faster in single-core, and 5% quicker in multi-core.

Bear in mind the usual caveats about leaks, and not reading too much into a single benchmark, especially not a pre-release one – but on the latter point, there’s also the possibility that the final performance of the 11900K could be even better.

Price matters

When it comes to the overall picture, a lot will depend on exactly where Intel decides to pitch the new Rocket Lake CPUs – which are rumored to be launching in March – in terms of their pricing, but the latest speculation we’ve heard on that front sounds quite positive. It’s possible that the 11900K may come in at a cheaper level than the Comet Lake flagship, and that would certainly make for strong competition for AMD.

VideoCardz also pointed out a Geekbench leak for the Core i7-11700K, which will also run with 8-cores according to the rumor mill, and achieved single-core and multi-core results of 1,551 and 8,849 respectively.

That’s around 8% and 18% slower than the Ryzen 5800X, but note that the 11700K is pegged at a boost speed of 4.4GHz in this benchmark, so obviously this doesn’t represent the full capabilities of that chip (the 10700K boosts up to 5.1GHz).



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Thursday, 21 January 2021

Intel Reports Q4 2020 Earnings: Analyst Q&A Transcript

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At the end of every financial call, invited financial analysts have an opportunity to probe the key members of the company on the numbers, as well as future products. 



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Intel Reports Q4 2020 Earnings: 2020 Delivers A Profitable Pandemic

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Earnings season is once more upon us, and once again leading the charge is Intel, who this afternoon reported their Q4’2020 and full-year 2020 financial results. The 800lb gorilla of the PC world has seen some unexpectedly strong quarters in 2020 following the coronavirus outbreak, and despite all of the uncertainty that entails, it’s ultimately played out in Intel’s favor. As a result, they’re closing the book on yet another record year, making for their fifth in a row.

Starting with quarterly results, for the fourth quarter of 2020, Intel reported $20.0B in revenue, which is a drop of $0.2B over the year-ago quarter. Intel saw a very good Q4 a year ago, and while Q4’20 is once again their strongest quarter of the year, Intel’s momentum as a whole is starting to back off on a quarterly basis. More significantly, Intel’s net income has dropped 15% YoY, with Intel booking $5.9B there.



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Intel Core i7-10700 vs Core i7-10700K Review: Is 65W Comet Lake an Option?

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Over the years, Intel’s consumer processor lineup has featured its usual array of overclocking ‘K’ models, and more recently the ‘F’ series that come without integrated graphics. The bulk of the lineup however are still the versions without a suffix, the ‘nones’, like the Core i7-10700 in this review. These processors sit in the middle of the road, almost always having a 65 W TDP compared to the 91-125 W overclockable models, but also having integrated graphics, unlike the F family. What makes it interesting is when we pair one of these 65 W parts against its 125 W overclocking counterpart, and if the extra base and turbo frequency boost is actually worth the money in an era where motherboards don't seem to care about power?



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Intel’s new driver supports Iris Xe Max laptop GPU, and fixes annoying Cyberpunk 2077 crash

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Intel has released a fresh graphics driver which brings in official support for its new discrete Xe GPU for laptops, and provides a useful fix for a Cyberpunk 2077 bug.

The highlight of driver release 27.20.100.9168 is the introduction of support for Intel Iris Xe Max Graphics, otherwise known as DG1, the first Xe standalone GPU (as opposed to integrated graphics built into the CPU).

A number of notebooks already run with Intel’s new GPU, including the Acer Swift 3x and Asus VivoBook Flip TP470.

Support for the game Hitman 3 also arrives with this new driver, although it is recommended that you should be running Iris Xe Graphics (or better) to enjoy this fresh release.

Cyberpunk crash

As you might expect, driver 27.20.100.9168 also fixes a bunch of issues, including a frustrating crash which happens when launching Cyberpunk 2077 – although there are still other ‘intermittent’ crashing issues affecting the game, as listed in the known issues of the release notes [PDF].

There are lots of cures for ‘minor’ graphics glitches in a whole load of games, including Atelier Ryza 2: Lost Legends & the Secret Fairy, Nioh 2, Star Wars Battlefront 2 and various Tomb Raider games.

A problem with 4K monitors connected to a laptop via DisplayPort, which caused flickering to occur on the screen after closing the notebook and then resuming from sleep, has also been fixed.

Via Neowin



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AMD Processors: the best AMD CPUs in 2021

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Can the best AMD processors rule the CPU market once and for all? Thanks to excellent offerings in the Ryzen 3rd Generation and much newer AMD Ryzen 5000 lines that deliver sheer performance for less, AMD has certainly given Intel a legitimate reason to be concerned. And, it’s gaining more popularity in the computing world.

The best AMD processors just aren’t budget-friendly alternatives for budget-conscious consumers. Not only are they typically more affordable than the competition, but they also deliver impressive performance that could rival that of Intel’s best releases. That means they’re a much better value for everyone.

AMD still seems to have the upper hand in the AMD vs Intel battle so we gathered all the best AMD processors from all the current generations available. If you’re in the market for a solid chip, you’ll certainly find something on this list.

  • If you're looking for AMD graphics cards, here are our picks for the best AMD GPU

The best AMD CPUs at a glance

  1. AMD Ryzen 9 5900X
  2. AMD Ryzen 5 3600X
  3. AMD Ryzen 7 5800X
  4. AMD Ryzen 9 3950X
  5. AMD Ryzen Threadripper 3960X

AMD Ryzen 9 5900X

(Image credit: AMD)

1. AMD Ryzen 9 5900X

Best CPU for high-end gaming

Cores: 12 | Threads: 24 | Base clock: 3.7GHz | Boost clock: 4.8GHz | L3 cache: 64MB | TDP: 105W

Amazing performance
A new single-core champion
Same power consumption
Price went up
No included cooler

The AMD Ryzen 9 5900X brings the biggest gen-on-gen jump in a single performance in years, making it a terrific upgrade. This latest release from AMD is not just a stronger processor across the board. It’s also an incredibly powerful processor for gaming and creative work full stop. The fact that you won’t need a new motherboard is just a nice perk.

Read the full review: AMD Ryzen 9 5900X

AMD Ryzen 5 3600X

AMD Ryzen 5 3600X takes that budget-minded stage of performance to a new level. (Image credit: TechRadar)

2. AMD Ryzen 5 3600X

Best AMD processor for gaming

Cores: 6 | Threads: 12 | Base clock: 3.8GHz | Boost clock: 4.4GHz | L3 cache: 32MB | TDP: 95W

Excellent performance
Affordable
Includes a cooler
Still 6-cores

Showcasing an impressive multi-threading performance as well as competitive performance in even the most intense single-threaded applications, this mid-range chip cannot help but take the throne as the best AMD processor for gaming. And, AMD Ryzen 5 3600X doesn’t just stop there: it takes that budget-minded stage of performance to a new level, with increased IPC (instructions per clock) performance, along with a higher clock speed – while staying at the same price point.

Read the full review: AMD Ryzen 5 3600X

AMD Ryzen 7 5800X

(Image credit: AMD)

3. AMD Ryzen 7 5800X

Ryzen to the top

Cores: 8 | Threads: 16 | Base clock: 3.8GHz | Boost clock: 4.7GHz | L3 cache: 32MB | TDP: 105W

Excellent single-core performance
Strong for gaming
Low power
Price jump from Ryzen 3000
No included cooler

Intel no longer has the monopoly on gaming CPUs. Rocking 8 cores and 16 threads, along with much stronger single-core performance, the AMD Ryzen 7 5800X is among the best CPUs for gaming – as well as less demanding creative work – right now. And it comes with a much more approachable price tag compared to most of Intel’s offerings, making it a much better value.

Read the full review: AMD Ryzen 7 5800X

AMD Ryzen 9 3950X

If you’re looking for one a processors that can handle processing tasks and high-end gaming, the AMD Ryzen 9 3950X is a strong contender. (Image credit: Future)

4. AMD Ryzen 9 3950X

Moonlights as an HEDT processor

Cores: 16 | Threads: 32 | Base clock: 3.5GHz | Boost clock: 4.7GHz | L3 cache: 64MB | TDP: 105W

Cheaper than HEDT
PCIe 4.0
Fits in AM4 socket
Needs extra cooling
Limited gaming advantage

The AMD Ryzen 9 3950X is so great that in our review, we went as far as to call it the baddest cat in town when it comes to processors that don’t land in the HEDT (high-end desktop) category of processors. Built on AMD’s 7nm Zen 2 architecture, it has a whopping 16 cores and 32 threads, making it excellent for heavily threaded computer work. If you’re looking for one of the best AMD processors that can handle both processing tasks and high-end gaming, the AMD Ryzen 9 3950X is a strong contender.

Read the full review: AMD Ryzen 9 3950X

AMD Ryzen Threadripper 3960X

(Image credit: AMD)

5. AMD Ryzen Threadripper 3960X

Perfecting the Threadripper line

Cores: 24 | Threads: 48 | Base clock: 3.8GHz | Boost clock: 4.5GHz | L3 cache: 128MB | TDP: 280W

Excellent single and multithreaded performance
Competitive price
Not backwards compatible

Launched alongside the even more potent Ryzen Threadripper 3970X, the AMD Ryzen Threadripper 3960X may have the same core count as its predecessor. However, it comes with a brand-new architecture that delivers performance gains as well as PCIe 4.0, making it among the best processors in the Threadripper arena. The 3960X delivers dramatically improved single-threaded performance and has successfully reduced its predecessors’ idiosyncrasies that affect their own performance. It may come with a higher price tag and require the TRX40 motherboard – not to mention, a powerful cooler – but it’s certainly worth the fuss if you can maximize its skills to your advantage.



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New Intel CEO Making Waves: Rehiring Retired CPU Architects

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We’re following the state of play with Intel’s new CEO, Pat Gelsinger, very closely. Even as an Intel employee for 30 years, rising to the rank of CTO, then taking 12 years away from the company, his arrival has been met with praise across the spectrum given his background and previous successes. He isn’t even set to take his new role until February 15th, however his return is already causing a stir with Intel’s current R&D teams.



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